Hydrogen Sensing under Ambient Conditions Using SnO<sub>2</sub> Nanowires: Synergetic Effect of Pd/Sn Codeposition

Jeong, Seung Ho; Kim, Sol; Cha, Jihoon; Son, Min; Park, Sang Han; Kim, Ha Yeong; Cho, Man Ho; Whangbo, Myung Hwan; Yoo, Kyung Hwa; Kim, Sung Jin

doi:10.1021/nl402998g

Cited by 47 publications

(18 citation statements)

References 38 publications

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“…Then, the improved properties could contribute to a more rapid increase in the number of free electrons, narrow the electronic depletion layer, and enhance the deoxidation reaction on the surface. Just as a catalyst, Eu ions could promote the reactions around them [31]. Moreover, the possible reactions caused by Eu have been presented as below [32]: …”

Section: Resultsmentioning

confidence: 99%

Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping

et al. 2017

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SnO2 nanobelts (NBs) have unique structural and functional properties which attract great attention in gas detecting. In this work, Eu doping is adopted to improve the gas sensitivity of pure SnO2, especially to enhance the response to one single gas. The Eu-doped SnO2 NBs, pure-SnO2 NBs, and their single NB devices are fabricated by simple techniques. The sensing properties of the two sensors have been experimentally investigated. It is found that the two sensors possess long-term stability with rapid response performance, and Eu doping improves the electronic performance and the gas-sensing response, particularly to acetone. In addition, the effects aroused by Eu have been theoretically calculated, which indicates that Eu doping enhances the sensing performance of SnO2. Consequently, Eu-doped SnO2 NBs show great potential applications in the detection of acetone.

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Section: Resultsmentioning

confidence: 99%

Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping

et al. 2017

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“…However, many above mentioned parameters fail to keep pace with the rising present-day requirements, and much more should be done to design and fabricate the structure with highly-controllable properties in relation to hydrogen handling. One possible way to enhance the properties of such materials is to use the compound structures involving palladium in combination with various nanostructures, e.g., palladium nanotubes [18], carbon nanotubes covered with palladium nanocrystals [19], Pd-functionalized graphene flakes [20,21], Pd/Sn composites [22] and other sophisticated nanomaterials and nanostructures. One-dimensional palladium nanostructures such as nanowires are among the most promising structures that show highly-promising characteristics [23].…”

Section: Introductionmentioning

confidence: 99%

Hierarchical bi-dimensional alumina/palladium nanowire nano-architectures for hydrogen detection, storage and controlled release

Fang

Levchenko

Lü

et al. 2015

International Journal of Hydrogen Energy

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We report on the fabrication of bi-dimensional alumina/palladium nanowire nanoarchitectures for hydrogen detection, storage and controlled release. This nanostructured material was fabricated by growing the palladium nanowires directly in the nanosized channels of nanoporous alumina membrane followed by atmospheric-plasma jet treatment to fabricate the interconnected surface structure mostly suitable for hydrogenrelated applications such as controlled release and sensing. Several interesting properties are demonstrated, including high sensitivity levels (up to 0.1% of H 2 in air) and short response times. Large resistance response reaching 100% for 0.5% of H 2 in air makes it possible to use the fabricated sensors without complex and expensive amplifying circuits.

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“…For example, grain and pore sizes have been modified and hollow nanostructures with good adsorbing capacity have been synthesized to enhance the sensing properties . Furthermore, noble metal additives such as Au, Pt, and Pd have been used to enhance the sensing performance . Li et al reported that Au/SnO 2 hollow nanospheres (HNs) showed better gas‐sensing performance to acetone.…”

Section: Introductionmentioning

confidence: 99%

PdO/SnO₂ hollow nanospheres for carbon monoxide detection

Wang

Zhao

Liu

2015

Phys. Status Solidi A

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SnO2 hollow nanospheres (SnO2 HNs) and different amount of PdO‐doped SnO2 HNs were successfully synthesized and applied to fabricate sensors for CO detection. The synthesized SnO2 and PdO/SnO2 materials have tetragonal and HN structure with a diameter of ∼180 nm, and the existence of Pd element is revealed by EDS and XPS. In addition, the sensors based on the pristine SnO2 and Pd‐loaded SnO2 HNs were investigated for CO sensing properties. The experiment results indicated that materials of the best doping ratio is 1 mol%, because 1 mol% PdO/SnO2 HN sensor had a lower optimized operating temperature (150 °C) and exhibited more excellent sensitivity than the other sensors for the detection of CO. Furthermore, the response value of 1 mol% PdO/SnO2 HN sensor presented a linear relationship with CO concentration in the range 20–500 ppm CO at 150 °C. Meanwhile, 1 mol% PdO/SnO2 HN sensor exhibited a remarkable selectivity to CO against volatile organic compounds. These results demonstrated that 1 mol% PdO/SnO2 HNs are promising materials for application as a CO gas sensor when its working temperature is 150 °C.Comparison of PdO/SnO2 hollow nanospheres with various amount of Pd loading for 200 ppm CO detection at different temperatures.

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Hydrogen Sensing under Ambient Conditions Using SnO₂ Nanowires: Synergetic Effect of Pd/Sn Codeposition

Cited by 47 publications

References 38 publications

Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping

Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping

Hierarchical bi-dimensional alumina/palladium nanowire nano-architectures for hydrogen detection, storage and controlled release

PdO/SnO₂ hollow nanospheres for carbon monoxide detection

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Hydrogen Sensing under Ambient Conditions Using SnO2 Nanowires: Synergetic Effect of Pd/Sn Codeposition

Cited by 47 publications

References 38 publications

Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping

Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping

Hierarchical bi-dimensional alumina/palladium nanowire nano-architectures for hydrogen detection, storage and controlled release

PdO/SnO2 hollow nanospheres for carbon monoxide detection

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Product

Resources

About

Hydrogen Sensing under Ambient Conditions Using SnO₂ Nanowires: Synergetic Effect of Pd/Sn Codeposition

PdO/SnO₂ hollow nanospheres for carbon monoxide detection